-This directory contains:
+This file, INSTALL, is a -*- text -*- file tutorial on how to
+ * install userv ipif and udptunnel,
+ * configure them to create a VPN tunnel between two hosts or
+ networks, or
+ * use udptunnel-reconf to create a multi-site VPN.
+
-* A userv service (`ipif') for allowing users to create network
-interfaces and handle the traffic for them. For instructions, see the
-comment at the top of service.c.
+See README for details of other available documentation.
-* A VPN tunnelling system based on that userv service, which does
-encryption and can be used to join two networks. It uses its own
-nonstandard protocols, not IPSEC. Key setup is done via an ssh
-connection. For installation instructions, read this file.
-These tools have only been tested on GNU/Linux, and the ipif service
-in particular uses the Linux-specific `slattach' utility.
+BUILD AND INSTALLATION INSTRUCTIONS
+-----------------------------------
-NB that this is a very bare set of installation instructions for the
-VPN system ! It describes a fairly `default' configuration; you can
-do more esoteric things if you wish.
+1. Install userv, 1.0.1 or later. This is in Debian GNU/Linux.
+2. Make sure your Linux kernel has SLIP and CSLIP compiled in.
+ You will need to be using Linux 2.2 (with Unix98-style ptys).
-In any case, on each tunnel endpoint system (not the eventual
-end-system, but the point where the packets are `detunnelled'):
+3. udptunnel works best if your ssh can do ssh-protocol-level
+ keepalives. Currently these are only supported by using a special
+ patch, which can be found (for OpenSSH 1.2.x) at
+ ftp.chiark.greenend.org.uk:/users/ian/openssh+protocolkeepalives.
+
+4. Obtain a fresh copy of userv-utils, if you haven't already.
+ cd to ipif, and run `make' and (as root) `make install'.
+
+ After you have done this the software will still not do anything, and
+ by default userv ipif will not allow anyone (except root) to create
+ network interfaces.
+
+ The software will probably only work on Linux - in particular, userv
+ ipif's service program (service.c) uses Linux-specific ways of
+ setting up SLIP interfaces. It might be possible in principle to
+ create alternatives for other platforms.
-* Install userv, 1.0.1 or later. This should be in Debian. Get this
-* package, userv-utils from the location above, unpack it, cd to the
- `ipif' subdirectory, and say `make' then as root `make install'.
+`slattach' problem:
+
+ There is a problem with some versions of `slattach' on Linux. If you
+ see a message from it about being unable to open /dev/2 or some such,
+ then you need to upgrade or patch your `slattach'. In Debian
+ GNU/Linux it's in the `netbase' package, and the fix is in Debian 2.1
+ in 3.16-3 and later; however the bug has regressed, and is known to
+ be in Debian 2.2's 3.18-4 and earlier. The relevant Debian bug
+ reports are #45515 (now closed) and #45944. A patch to correct
+ 3.18-4 is provided here as `slattach.diff', and a fixed binary is
+ available from the author.
-The tunnel is always set up by one of its endpoints, using ssh (we
-recommend you use OpenSSH). So the active endpoint must have ssh
-installed; the passive endpoint must have sshd accessible to the
-active endpoint, and be willing to allow the active endpoint to run
-the appropriate command.
-
-So: create an account for the active endpoint on the passive. You
-probably want to use RSAAuthentication, so configure the relevant key
-into the passive account's authorized_keys file.
-
-Each account must have the ability to run the `userv ipif' service
-with appropriate parameters. This is achieved by editing
-/etc/userv/ipif-networks, each line of which is in the format:
-
-<gid>,[=]<network-prefix>/<prefix-length>, <groupname>, <comment>
-
-Both the local and remote endpoint addresses, and the remote network
-address(es), need to be recorded in this file. The `=' restricts the
-address to be used, by that group, as the local tunnel endpoint
-address; without `=' the address ranges specified may refer to remote
-endpoints and networks. Every address involved with the tunnel must
-be covered by an appropriate line in ipif-networks.
-
-For example, a configuration to talk to Relativity, the author's home
-site, would include:
-<gid>,172.31.80.6/32, <group>, Relativity tunnel endpoint
-<gid>,172.18.45.0/24, <group>, Relativity house ethernet
-as well as the local tunnel endpoint address, for example:
-<gid>,=192.168.160.124/32, <group>, Local tunnel endpoint
-There is no NAT (address translation) in the tunnelling software, so
-all the addresses must be RFC1918-allocated and distinct (except that
-a single tunnel endpoint address can be used for all the tunnels
-terminating on a particular endpoint system).
+UDPTUNNEL SETUP TUTORIAL
+------------------------
+
+
+1. BACKGROUND INFORMATION
-You are strongly advised to choose your private network ranges
-randomly, as recommended in BCP5 (currently RFC1918). Users in
-Cambridge may like to use the Cambridge G-RIN at
-http://www.ucam.org/cam-grin/ to choose and register their networks.
+ Firstly, note that userv ipif and udptunnel are extremely flexible,
+ as they aim to be `Lego brick' networking components. Many much more
+ interesting configurations can be constructed than there is room to
+ document here. If you want to do something strange, consult the
+ README to locate the appropriate reference documentation.
+
+1.1. About udptunnel
+ udptunnel is point-to-point; you need a separate `invocation' for
+ each pair of machines (or networks) you wish to connect.
-When these things are all thought to be set up, you can test the
-tunnel by running `udptunnel' in the active account. It is invoked
-something like this:
-
-authbind udptunnel \
- -m \
- -e nonce -e timestamp/10/30 -e pkcs5/8 \
- -e blowfish-cbcmac/128 -e blowfish-cbc/128 \
- davenant-external,410 \
- chiark-public,Command \
- 172.31.80.6,172.31.80.9,1000,cslip \
- 30,120,1800 \
- - 172.18.45.0/24 \
- ssh -o 'ForwardAgent no' -o 'ForwardX11 no' \
- -o 'BatchMode yes' \
- -i ~ian/.ssh/identity -l ian \
- -v chiark.greenend.org.uk \
- udptunnel
+ It is `one-shot': it will set up a tunnel and keep it going as long
+ as it can, and then exit; if you want a permanent tunnel you must
+ arrange to reinvoke udptunnel.
+
+ It is asymmetric, in that one of the endpoints starts the tunnel, and
+ the other sits and waits to be contacted. We'll call the active
+ endpoint `alice' and the passive endpoint `bob'. Usually alice
+ invokes udptunnel on bob via OpenSSH (`ssh').
+
+ udptunnel does not need root privilege to run. However, you do need
+ to configure userv ipif to know that the user who will be running
+ udptunnel is permitted to use the IP addresses and network ranges
+ which will be used. So, though most of the configuration can be done
+ as the normal users who will run udptunnel on each end, a small
+ amount (editing /etc/userv/ipif-networks) needs to be done as root on
+ each end - and the information configured as root needs to match up
+
+ This tutorial will explain how to do these things.
+
+1.2. About point-to-point tunnelling in general
+
+ A tunnel is an _additional_ (in the case of udptunnel, encrypted)
+ network link between a pair of machines. Packets are encapsulated at
+ one end, sent over the real network between them, and decoded again
+ at the other end. As with any network connection, it is possible to
+ arrange for networks behind the endpoint machines to be able to
+ communicate via the tunnel.
+
+ Each endpoint machine will have at least two network interfaces:
+ Firstly, the real `physical' interface through which the encapsulated
+ packets will be really sent and received. Secondly, the `virtual'
+ interface created by the tunnelling software, which represents its
+ end of the (encrypted) tunnel link. The physical and virtual
+ interfaces MUST have different addresses.
-This example is the tunnel between chiark and Relativity. I'll quote
-it and explain the details, below. See also the comment at the top of
-udptunnel.
+ Each endpoint machine may also have additional network interfaces;
+ for example, it may be the router for a network which sits behind it,
+ which an interface on that network, or it may be the endpoint for
+ more than one tunnel. It is OK for several tunnels terminating at
+ the same machine to use the same virtual address (provided that the
+ tunnels are not `layered' on top of each other but are `in
+ parallel'), and it is also OK to use as the virtual tunnel address a
+ router's address on a private network which will be sent via the
+ tunnel.
+
+1.3. Diagram
+ ____ ______________ ______________ ____
+ __( )__ |ALICE | | BOB| __( )__
+,' ` ' `. | _ | Tunnel | _ | ,' ` ' `.
+| alice | | |\\ ,- - - - - - - - - -. //| | | bob |
+`._private _.' | | || | | || | | `._private _.'
+| networks |==+--------'|| | Public | ||`--------+==| networks |
+| | | alice | Network | bob | | |
+`.~ ~.' | virtual +=============+ virtual | `.~ ~.'
+ (__,'`.__) |______________|alice bob|______________| (__,'`.__)
+ physical physical
+ _
+ Key: HOSTNAME +===+ Actual Network |\\ Tunnel
+ Descriptive Text ----- Data Flow | ||Endpoint
+ host or network number - - - Encrypted Data Flow ||
+
+
+2. INFORMATION COLLECTION AND PRELIMINARY SETUP
+
+ You will need to collect and/or decide upon various information, and
+ make sure that your two endpoint systems can talk to each other over
+ the public network.
-Because at Relativity the tunnel endpoint has to not be our firewall,
-because the firewall is a 386SX/16 and so not powerful enough,
-Relativity practically has to be the active partner in any tunnels it
-is involved in. This also necessitates the use of the `-m' option and
-various other things.
-
+2.1. Find out, or choose, private network numbers
+
+ You need to make sure you know what all of the addresses in the above
+ diagram are going to be.
+
+ Usually you must choose the private and virtual addresses yourself:
+ hosts on the private networks usually won't communicate with the
+ global Internet other than through proxies or masquerading firewalls.
-Exposition of an example udptunnel invocation:
+ You MUST choose from the reserved ranges in RFC1918, which are:
+ 172.16.0.0/12 192.168.0.0/16 10.0.0.0/8
+ If you do not do so you'll end up reusing someone else's addresses,
+ which can cause lots of hard-to-diagnose and embarrasing problems.
-> authbind udptunnel \
+ You should CHOOSE RANDOMLY ! This makes sure that when you decide to
+ connect your VPN to someone else's VPN, your network allocation
+ numbers are unlikely to clash. If you both choose 192.168.0.0/24
+ you'll have to renumber (and will look like fools).
+
+ To help with choosing random network numbers from RFC1918 space, the
+ author maintains a web page at <http://www.ucam.org/cam-grin/>, which
+ can pick network numbers for you.
+
+ Additionally, there is a database there - people in Cambridge (in
+ England) are encouraged to register their network address usage
+ there. Please do not register in the database unless you're likely
+ to want to connect your VPN to others already listed.
+
+2.2. Find out, or choose, public network numbers
+
+ These are usually specified by your ISP, either statically or
+ dynamically assigned. If the active end (`alice physical') is
+ dynamically assigned you can use the `Wait' option (see below) to
+ avoid specifying it, but otherwise you will need to have some kind of
+ script to find it each time you invoke udptunnel, or use a hostname
+ which automatically tracks the source host using dynamic DNS.
+
+ In some situations you may find yourself using a `public network'
+ which is not actually the public Internet - for example, you may want
+ to run one tunnel `through' another, or your `public network' is
+ actually a `private', but not sufficiently secure, radio LAN. In
+ this case you'll have to choose the addresses to use from
+ RFC1918-space, as above.
+
+2.3. Decide which user account(s) on alice and bob you will use
+
+ These user accounts will see the plaintext for all network packets
+ going over the tunnel and if compromised will be able steal or forge
+ tunnel traffic. So, they should be reasonably secure.
+
+ Let us assume that the account on alice is called Tbob, and the
+ account on bob is called Talice. (NB that your system may not
+ correctly handle usernames containing uppercase.)
+
+ Each account should be in a group of its own, which will be used for
+ the userv ipif access control.
+
+ Arrange that Tbob@alice can ssh to Talice@bob without needing a
+ passphrase or other user interaction.
+
+ (Obviously, if you need to create accounts, edit groups, or change
+ the sshd configuratioon, you may need to be root.)
+
+2.4. Decide whether to use `udptunnel-reconf'
+
+ There are two ways to set up a tunnel with udptunnel. Either you can
+ simply give udptunnel the right command, by putting it in an
+ appropriate script and arranging it to be called, or you can have a
+ program `udptunnel-reconf' read some configuration files and do it
+ for you.
+
+ udptunnel-reconf is not as well documented, but its behaviour is
+ somewhat more `cooked'. It is especially useful if you need to
+ maintain many tunnels as part of an organised, multi-site, VPN.
+
+ Using udptunnel directly is somewhat more flexible, and may be easier
+ if you only want one tunnel.
+
+
+3. SETUP INSTRUCTIONS - USING UDPTUNNEL-RECONF
+
+ Edit or create the following files, as root:
+ /etc/userv/vpn/sites
+ /etc/userv/vpn/tunnels
+ /etc/userv/vpn/global
-`authbind' is used because at Relativity the tunnel endpoint address
-has to be on a fixed port because our tunnel endpoint is not on the
-firewall system (if it's not on a fixed port we can't write a firewall
-rule to let it through).
+ Run udptunnel-reconf, as root. This will create:
+ /var/lib/userv/vpn/passive-sites
+ /var/lib/userv/vpn/active-sites
+ /var/lib/userv/vpn/command.<site>
-The port is port 410, so root privilege or authbind is needed.
-authbind is in Debian GNU/Linux.
+ It will also spit out to stdout two things: firstly, a list of
+ suggested commands to put in your inittab, and secondly a suggested
+ line to put in your /etc/userv/ipif-networks.
-> -m \
+ Test that your setup is working, by running (one of) the
+ /var/lib/userv/vpn/command.<site> file(s) by hand - see section 5.
+ If it works, you can put the relevant things in your inittab and say
+ `init q'.
--m tells this invocation of udptunnel that its endpoint address and
-port (for encapsulated packets) are going to be NATted before the far
-end sees them. The effect is that instead of supplying this
-information to the far end, the far end is told to `wait and see'.
+ To find out what all the configuration settings do, look at
+ /usr/local/share/userv/udptunnel-vpn-defaults, which contains the
+ default settings and shows where all the hooks are. Consult section
+ 4 of this file to understand what the options to udptunnel do.
+
+
+4. SETUP INSTRUCTIONS - INVOKING UDPTUNNEL DIRECTLY
+
+ All of these steps can be done using the appropriate normal user
+ accounts, unless otherwise indicated.
+
+4.1. Configure the private network numbers in /etc/userv/ipif-networks
+
+ (This step needs to be done as root.)
+
+ On alice, in /etc/userv/ipif-networks, put
+ <Tbob-gid>,=<alice-virt-addr>/32, <Tbob-group>, <comment>
+ <Tbob-gid>,<bob-virt-addr>/32, <Tbob-group>, <comment>
+ and for each of bob's private networks
+ <Tbob-gid>,<network>/<prefix-len>, <Tbob-group>, <comment>
+ You can leave out the <bob-virt-addr>/32 line if bob's virtual
+ address is in one of bob's private networks.
+
+ On bob, do the corresponding. In /etc/userv/ipif-networks, put
+ <Talice-gid>,=<bob-virt-addr>/32, <Talice-group>, <comment>
+ <Talice-gid>,<alice-virt-addr>/32, <Talice-group>, <comment>
+ and for each of alice's private networks
+ <Talice-gid>,<network>/<prefix-len>, <Talice-group>, <comment>
+ Again, you can leave out <alice-virt-addr> if one of the virtual
+ networks covers it.
+
+ All the specifications in /etc/userv/ipif-networks must be numerical
+ addresses - hostnames are not allowed. Also, the /32 indicating a
+ specific host cannot be omitted.
+
+ Note the use of `=' for each host's own virtual address, which
+ indicates to userv ipif that it's OK for that gid to create a local
+ interface with that address, but the address may not be assigned to a
+ remote host or route.
+
+4.2. Construct the udptunnel invocation (on alice)
+
+ udptunnel has a long and complicated command line, rather than a
+ configuration file. The best way to deal with this is to create a
+ shell script which runs udptunnel with the right options. This
+ script will live on alice in ~Tbob, and be run by Tbob. Let us call
+ it `udptunnel-invoke-bob'.
+
+ For the most basic setup, it should look something like this:
+
+ #!/bin/sh
+ set -e
+ set -x
+
+ udptunnel \
+ -e nonce -e timestamp/10/30 \
+ -e pkcs5/8 -e blowfish-cbcmac/128 -e blowfish-cbc/128 \
+ <alice-physical-hostname>,Any \
+ <bob-physical-hostname>,Command \
+ <alice-virtual>,<bob-virtual>,1000,cslip \
+ 30,130,1800 \
+ <bob-private-nets> <alice-private-nets> \
+ ssh -o 'BatchMode yes' \
+ -v <Talice>@<bob-physical-hostname> \
+ udptunnel
+
+ You have to fill in the right values for things in angle brackets.
+ (See also section 6. for a moderately complex example, below.)
+
+4.4.1. Syntax of <alice-private-nets> and <bob-private-nets>
+
+ These arguments to udptunnel are the network address ranges at each
+ end which are to be connected via the tunnel. Let us consider just
+ <alice-private-nets>; <bob-private-nets> is just the same, but for
+ bob's end.
+
+ <alice-private-nets> is a comma-separated list of networks specified
+ as <network>/<prefix-len>. The network address must be numerical,
+ and the prefix length must always be specified.
+
+ If there are no private networks `behind' alice, ie the tunnel is
+ just to connect alice to bob and things at bob's end, then specify
+ `-' for <alice-private-nets>.
+
+4.4.2. IP masquerading (NAT) at alice's end
+
+ If alice is behind a masquerading (NAT) firewall, you can still get
+ it to work. You need to add an option `-m' before the other
+ arguments. This will make udptunnel on alice tell udptunnel on bob
+ to wait for alice's first encapsulated packet before deciding what
+ alice's physcial address and port number are, as seen by bob. That
+ way alice doesn't need to know what port number the NAT proxy will
+ use.
+
+4.4.3. Using fixed UDP port numbers (eg to make firewally happy)
+
+ If alice is behind a firewall which will not allow incoming UDP to
+ arbitrary ports, even when sent in reply to packets of alice's, you
+ have to arrange for alice to use a fixed port number. Change
+ <alice-physical-hostname>,Any \
+ to
+ <alice-physical-hostname>,<alice-physical-port> \
+
+ udptunnel will need to be able to bind to the relevant port, so you
+ must either (i) choose a port number over 1024, which risks other
+ processes on alice accidentally using that port, (ii) run udptunnel
+ as root on alice, or (iii) use authbind (authbind is a utility,
+ included in Debian, which can allow non-root programs to bind to low
+ ports in a controlled way).
+
+ If bob is behind such a firewall too, you can replace
+ <bob-physical-hostname>,Command \
+ with
+ <bob-physical-hostname>,<bob-physical-port> \
+
+4.4.4. Clock skew and excessive delay
+
+ The default configuration given above, which includes this
+ -e nonce -e timestamp/10/30 \
+ will not work if there is more than 10s of clock skew between alice
+ and bob's system clocks, or if the lag in either direction is more
+ than 30s. It is best if your systems run with synchronised clocks
+ (you can run NTP over the tunnel if necessary) and don't have such
+ bad lag, of course.
+
+ However, you can increase these parameters if you really want. To
+ increase the tolerance to clock skew to some amount, make sure that
+ both numbers are at least the amount of clock skew you're willing to
+ tolerate. To increase the tolerance to delay it's only necessary to
+ increase the second number.
+
+ Warning: if you increase these numbers too much there is a risk that
+ packets delayed or repeated by an attacker will be treated as genuine
+ and cause communication or security problems. I would not recommend
+ using a value more than 120 (2 minutes).
+
+ If you really can't get reasonable clock synch at all, you can use
+ sequence number replay detection instead of clock-based replay
+ detection. Replace
+ -e nonce -e timestamp/10/30 \
+ with
+ -e sequence \
+
+4.4.5. Other things to tweak (it's usually safe to ignore this part)
+
+ Do not mess with the `-e' parameters and arguments except as
+ explained above, unless you are a cryptographer.
+
+ 30,130,1800 are timeouts which control the `dead tunnel detection'.
+ The first is the keepalive interval: when one end hasn't sent
+ anything for that many seconds, it will send an empty keepalive
+ packet. The second is the dead tunnel timeout: when one end hasn't
+ received anything for that many seconds, it assumes the tunnel is
+ dead and dies (the other end will then usually die shortly if it
+ hasn't already). The third is the status reporting interval - at
+ intervals of that many seconds each end will report (to udptunnel's
+ stdout) that the tunnel is still open and give some statistics; these
+ diagnostics also prevent the controlling ssh connection's entry in
+ masquerading and firewall tables from timing out.
+
+ 1000 (in ...,...,1000,cslip) is the MTU - the maximum size of packet
+ which will be sent through the tunnel. It is best if this number is
+ a certain amount smaller than the path MTU over the physical network,
+ so that encapsulated packets do not get fragmented. (Each packet
+ will be increased in size by 24 bytes + the size of a UDP and IP
+ header + the effects of SLIP duplication of certain bytes.)
+
+4.5. Testing your script
+
+ After you've written your script, you should run it to see if it
+ works. See section 5 for details.
+
+4.6. Configure the tunnel to run automatically
+
+ Now that the tunnel works if you invoke it by hand, it is time to
+ arrange to run it automatically.
+
+ If you want the tunnel to run over a dialup link only when the dialup
+ link is up, then I'm afraid you'll have to arrange to start and kill
+ it yourself, probably. I haven't set up such a configuration. More
+ information about this for this document, if you manage to do it,
+ would be good.
+
+ So, I shall assume that you want the tunnel to be up all of the time
+ (or at least, as much as possible). The best way to do this is to
+ run it from `init', by setting it up in inittab.
+
+ For example, you could put something like this in your inittab:
+ t0:23:respawn:su Tbob -c ./udptunnel-invoke-bob 2>&1 | logger -p local2.info -t tunnel-bob
+ (Note that if you have more than one tunnel the `id' field, at the
+ start of the inittab line, must be different for each one.)
+
+ This would use `su' to become bob and run the actual tunnelling
+ software, and arrange for the diagnostic output to be sent to syslog
+ with facility `local2' and priority `info', tagged with `tunnel-bob'.
+ With an appropriate line in /etc/syslog.conf, such as
+ local2.* /var/log/local2-all.log
+ (remember that you have to use tabs in syslog.conf) this will
+ produce, in /var/log/local2-all.log, all the diagnostics, including
+ reassuring messages like this:
+ Sep 18 00:27:48 alice tunnel-bob: udptunnel-forwarder: alice: tunnel still open: received 5262 packets, 5262 bytes
+ Sep 18 00:28:44 alice tunnel-bob: udptunnel-forwarder: bob: tunnel still open: received 5280 packets, 5280 bytes
+
+
+5. TESTING YOUR UDPTUNNEL INVOCATION SCRIPT
+
+5.1. Invocation
+
+ Log into alice as Tbob, and run ./udptunnel-invoke-bob.
+ A great deal of diagnostic output will ensue.
+
+ If all is well you will see two messages looking something like this
+ udptunnel-forwarder: bob: tunnel open with peer 127.0.0.3:76543
+ udptunnel-forwarder: alice: tunnel open
+ and the session will just sit there. This means it thinks it's
+ working; go on to section 5.2.
+
+ If it didn't say that, here are some debugging tips:
+
+ * If it just sits there for a minute or two and then udptunnel times
+ out, the physical packets aren't getting back and forth. Use
+ tcpdump, check your firewall and routing (as below), and consult the
+ sections above about NAT and firewalls.
+
+ * If it bombed out, look for an error message in the diagnostics.
+ There will be lots of `subprocess somethingorother exited with
+ nonzero exit status 47', `no details received from remote' and the
+ like, but these are probably not the ones you want to look at,
+ because they're usually just consequences of some other failure.
+
+ Permission denied.
+ udptunnel - alice: fatal error: remote command failed (code ...)
+ Tbob had trouble ssh'ing to Talice@bob. Check that the ssh
+ configuration is set up, and test it separately.
+
+ userv-ipif service: access denied for ...., ....
+ udptunnel - alice: subprocess local command failed with code 2048
+ The arguments to udptunnel don't correspond to
+ /etc/userv/ipif-networks on alice. Either the arguments to
+ udptunnel or the ipif-networks file is wrong. (Or, if the message
+ about `local command failed' mentions bob, look on bob.)
+
+ udptunnel - alice: subprocess forwarder failed with code 14
+ The tunnel timed out - no packets were successfully received for
+ 130 seconds. See 2.4.5 above for details of the timeout
+ parameters. (NB, applies to `code 14' only.)
+
+ usage errors from udptunnel or ssh, or sh: ...: unknown command
+ Perhaps you dropped a \ from the udptunnel-invoke-bob script ?
+
+ udptunnel not found, udptunnel-forwarder not found
+ Check that the PATH includes /usr/local/bin. Noninteractive `ssh'
+ invocations (ie, ones with a command specified) often have a
+ different PATH.
+
+ slattach cannot open /dev/2 (or similar messages)
+ Your slattach is buggy. See under `slattach problem' in the build
+ and installation instructions, above.
+
+ slattach cannot change line discipline (or some other weird message)
+ Check whether your kernel is compiled with SLIP and/or CSLIP
+ support.
+
+ * Other messages:
+
+ udptunnel-forwarder: alice: bad packet: blowfish-cbcmac: verify failed
+ This can be caused by actual packet corruption on the physical
+ network (or even by an actual hostile attack), but when using
+ fixed port numbers these messages are common after the tunnel has
+ died and been restarted: they correspond to packets from the
+ previous invocation (which is usung different keys) being rejected
+ because their checksums don't match. In this case they should go
+ away in a minute or two.
+
+5.2. Testing, once the tunnel claims to be working
+
+ In another session on alice, you should be able to ping bob's virtual
+ interface. If this works, test pinging between hosts on the private
+ networks behind alice and bob. If all is well, go onto step 4.
+
+ If not, here are some troubleshooting hints:
-This should not usually be used in other circumstances. (For full
-details see the comment at the top of udptunnel.)
+ * Use numerical addresses when testing. This eliminates DNS problems
+ from your test strategy.
-> -e nonce -e timestamp/10/30 -e pkcs5/8 \
-> -e blowfish-cbcmac/128 -e blowfish-cbc/128 \
-
-This is the crypto configuration. I wouldn't mess with it too much if
-I were you. If you have serious (>10s) clock skew then the -e
-timestamp option may not work properly; I'd recommend having your
-systems NTP-synchronised. Here 10 is the maximum number of seconds
-into the future the timestamp on an incoming packet might be, and 30
-the maximum age of an incoming packet. You can tweak these numbers if
-you really want. If you really can't get any kind of good clock
-synch, then it's probably OK to replace
- -e nonce -e timestamp/10/30
-with
- -e sequence
-(NB that we don't use -e sequence so it has not been well tested.)
+ * Use `ifconfig' and `route -n' on alice and bob to check that the
+ interfaces and routes all look right. The tunnel will show up as a
+ `sl<n>' for some <n>.
-> davenant-external,410 \
-
-This is the local address and port for sending/receiving encapsulated
-packets. davenant is the tunnel endpoint, and davenant-external is
-its globally-reachable address (we run two networks on the wire at
-Relativity, an internal one and a globally-reachable one).
-
-> chiark-public,Command \
-
-This is the remote address and port for encapsulated packets.
-`Command' means find out the remote address or port to send
-encapsulated packets to by having udptunnel at the far end print its
-address and port when they have been allocated.
-
-Another possibility here is to use a fixed remote port number.
+ * Use `tcpdump -n -i <interface>' to watch the traffic go across some
+ interface, to try to figure out where the traffic is going. Look
+ both for the private traffic before it goes into the tunnel, and the
+ physical traffic, to try to find out where it disappears. The
+ diagnostics will tell you which physical ports it's using, something
+ like this:
+ udptunnel - alice: debug: using remote Wait,Wait local 131.111.232.108,1422
+ udptunnel - bob: debug: using remote 131.111.232.108,1422 local 195.224.38.6,2413
-The DNS at GR has just `chiark' meaning chiark via the tunnel, so we
-have to use chiark-public which means its public IP address.
+ * alice and bob can see each other but the private networks can't ?
+ Make sure alice and bob both have IP forwarding enabled.
-> 172.31.80.6,172.31.80.9,1000,cslip \
+ * Check your firewalls, if you have them. It's most helpful if your
+ firewall configuration arranges to log rejected packets - without
+ that, they can be a complete pain to debug.
-172.31.80.6 is davenant's tunnel endpoint address.
-172.31.80.9 is the address of chiark's Relativity tunnel endpoint.
-> 30,120,1800 \
+6. DNS, firewall, mail, etc.
-These are timing parameters. 30 is the `keep alive' timeout; if
-nothing is sent for this many seconds, an empty packet is sent. 120
-is the `broken' timeout; if nothing valid is received for this many
-seconds, the tunnel is declared dead and dies (hopefully to be
-restarted); 1800 is the time in seconds between messages of the form
- udptunnel-forwarder: chiark: tunnel still open: received 746
- packets, 103257 bytes
-These serve as a useful diagnostic, and also prevent the controlling
-ssh connection from timing out from NAT tables.
+ When you have IP level connectivity between your two networks, you
+ must also arrange for:
-> - 172.18.45.0/24 \
+ * An appropriate firewall on each tunnel endpoint (to stop attacks
+ from one network to another) and also at all the borders of each
+ network (to stop traffic that is going to, or looks like it came
+ from, the private networks).
-`-' here is the remote networks which are reachable. None are
-reachable via chiark. 172.18.45.0/24 is the Relativity house
-ethernet.
+ * DNS configuration so that hosts on both sides of the tunnel can see
+ each other's names, addresses and other information.
-> ssh -o 'ForwardAgent no' -o 'ForwardX11 no' \
-> -o 'BatchMode yes' \
-> -i ~ian/.ssh/identity -l ian \
-> -v chiark.greenend.org.uk \
-> udptunnel
+ * Mail, news and other application protocols may need to be
+ configured to use the private tunnel connectivity, rather than
+ treating the other private network's names as being `elsewhere' and
+ using unencrypted connectivity via the global Internet.
-This is the ssh invocation to run udptunnel at the far end.
+ How to do these things is beyond the scope of this document.
-When you have this invocation working in a shell window you need to
-make it run automatically. Since the tunnel will die whenever your
-IP address changes, or when other troublesome events happen, you must
-arrange for it to be restarted. At Relativity we put the udptunnel
-invocation in a file and run it out of inittab, like this:
-t0:235:respawn:/usr/local/sbin/really -u ian /usr/local/sbin/udptunnel-invoke 2>&1 | logger -p local2.info -t tunnel-chiark
+7. Example
+ This example is the tunnel between chiark and Relativity. I'll quote
+ it and explain the details, below. See also the comment at the top of
+ udptunnel.
-Troubleshooting:
+ authbind udptunnel \
+ -m \
+ -e nonce -e timestamp/10/30 -e pkcs5/8 \
+ -e blowfish-cbcmac/128 -e blowfish-cbc/128 \
+ davenant-external,410 \
+ chiark-public,Command \
+ 172.31.80.6,172.31.80.9,1000,cslip \
+ 30,120,1800 \
+ - 172.18.45.0/24 \
+ ssh -o 'ForwardAgent no' -o 'ForwardX11 no' \
+ -o 'BatchMode yes' \
+ -i ~ian/.ssh/identity -l ian \
+ -v chiark.greenend.org.uk \
+ udptunnel
-Look at the error messages, they will hopefully be informative.
+ Because at Relativity the tunnel endpoint has to not be our firewall,
+ because the firewall is a 386SX/16 and so not powerful enough,
+ Relativity practically has to be the active partner in any tunnels it
+ is involved in. This also necessitates the use of the `-m' option and
+ various other things.
-If you see a message from `slattach' about being unable to open /dev/2
-or some such, then you need to upgrade your `slattach'. In Debian
-GNU/Linux it's in the `netbase' package, and the fix is in 3.16-3 and
-later; however the bug has regressed, and is known to be in 3.18-4 and
-earlier. The relevant Debian bug reports are #45515 (now closed) and
-#45944. A patch to correct 3.18-4 is in this directory as
-`slattach.diff'.
+ Exposition of the example udptunnel invocation:
+
+ > authbind udptunnel \
+
+ `authbind' is used because at Relativity the tunnel endpoint address
+ has to be on a fixed port because our tunnel endpoint is not on the
+ firewall system (if it's not on a fixed port we can't write a good
+ firewall rule to let it through).
+
+ The port we are using is port 410, a low port to prevent other
+ processes `stealing' it, so root privilege or authbind is needed.
+
+ > -m \
+
+ -m tells this invocation of udptunnel that its endpoint address and
+ port (for encapsulated packets) are going to be NATted before the far
+ end sees them. The effect is that instead of supplying this
+ information to the far end, the far end is told to `wait and see'.
+
+ This should not usually be used in other circumstances. (For full
+ details see the comment at the top of udptunnel.)
+
+ > -e nonce -e timestamp/10/30 -e pkcs5/8 \
+ > -e blowfish-cbcmac/128 -e blowfish-cbc/128 \
+
+ This is the crypto configuration.
+
+ > davenant-external,410 \
+
+ This is the local physical address and port. davenant is the tunnel
+ endpoint, and davenant-external is its public address (we run two
+ networks on the wire at Relativity, an internal one and a public
+ one).
+
+ > chiark-public,Command \
+
+ This is the physical remote address and port. `Command' means find
+ out the remote physical address or port by having udptunnel at the
+ far end print its address and port when they have been allocated.
+
+ Another possibility here is to use a fixed remote port number.
+
+ The DNS at GR is configured so that just `chiark' means chiark via
+ the tunnel, so we have to use chiark-public which means its public
+ IP address.
+
+ > 172.31.80.6,172.31.80.9,1000,cslip \
+
+ 172.31.80.6 is davenant's virtual address.
+ 172.31.80.9 is chiark's virtual address for the Relativity tunnel.
+
+ > 30,130,1800 \
+
+ These are the timing parameters.
+
+ > - 172.18.45.0/24 \
+
+ No remote virtual networks are reachable via chiark. 172.18.45.0/24
+ is the Relativity house ethernet, which is to be reachable via the
+ tunnel from chiark.
+
+ > ssh -o 'ForwardAgent no' -o 'ForwardX11 no' \
+ > -o 'BatchMode yes' \
+ > -i ~ian/.ssh/identity -l ian \
+ > -v chiark.greenend.org.uk \
+ > udptunnel
+
+ This is the ssh invocation to run udptunnel at the far end.
+
+ At Relativity we put the udptunnel invocation in a file and run it
+ out of inittab, like this:
+
+ t0:235:respawn:/usr/local/sbin/really -u ian /usr/local/sbin/udptunnel-invoke 2>&1 | logger -p local2.info -t tunnel-chiark
+
+
+8. Copyright notice
+
+ Copyright (C) 1999-2000 Ian Jackson
+
+ This is free software; you can redistribute it and/or modify it
+ under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful, but
+ WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with userv-utils; if not, write to the Free Software
+ Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
$Id$